JP5176813B2 - Cooling fan failure diagnosis system, failure diagnosis device, failure diagnosis method, failure diagnosis program, and cooling device - Google Patents

Description

  The present invention relates to a failure diagnosis technique for electronic devices, and more particularly, to a failure diagnosis technique that reliably performs failure diagnosis of a cooling fan having a redundant configuration in which a co-rotation phenomenon may occur.

  As a method for cooling an information processing apparatus, a cooling technique for cooling an electronic device in the information processing apparatus by incorporating a plurality of redundant cooling fans in the information processing apparatus is known. For example, in Patent Document 1, among a plurality of cooling fans arranged in an electronic device, some cooling fans are normally in an operating state, and when necessary, a plurality of cooling fans arranged in an electronic device are in an operating state. Thus, a technique for guaranteeing the operation of an electronic device is disclosed. Patent Document 2 discloses a technique for detecting the state of at least one of a plurality of fans and controlling the air volume by the fan according to the detection result.

  In the configuration using a plurality of redundant cooling fans (particularly, a dual fan unit cooling fan or a push-pull type cooling fan) as described above, when a certain cooling fan fails, the air flow of the other cooling fan A co-rotation phenomenon may occur in which the failure cooling fan rotates when pulled by wind force.

  This co-rotation phenomenon will be described in more detail with reference to push-pull type and dual fan unit cooling fans.

  In the case of a push-pull type cooling fan as shown in FIG. 10, intake air is taken in by the cooling fan 10-1, and cooling air is taken into the apparatus. Then, cooling is performed inside the apparatus, and the air whose temperature has risen due to internal heat generation is drawn in by the cooling fan 10-2 and forcibly exhausted to the outside. On the other hand, in the case of the cooling fan of the dual fan unit as shown in FIG. 11, cooling air is taken in by the cooling fan 11-1, and the internal air is pushed out by the cooling fan 11-2 and forced exhausted. Ruru. In both cases of the push-pull type and the dual fan unit, suction / exhaust is performed in a two-stage configuration, and the front-stage / rear-stage fans interact with each other. Taking the cooling fan of the dual fan unit as an example, even if a failure occurs in one cooling fan and it cannot rotate normally by itself, due to the airflow generated by the rotation of the other cooling fan, There may be a co-rotation phenomenon in which the failed cooling fan is dragged and rotated.

JP 2001-68881 A JP 2005-57119 A

  When the phenomenon of co-rotation as described above occurs, if the cooling fan rotation speed threshold for failure detection is low, if the failure cooling fan rotates at a rotation speed higher than this threshold due to co-rotation, this Cannot detect fan failure. As a result, there is a problem that the operation may be continued as it is even though the redundant configuration is lost, and the system may be suddenly stopped.

  On the other hand, when the threshold value of the cooling fan rotation speed for failure detection is set high, the failure detection becomes sensitive and the influence of the rotation speed variation due to the cooling fan individual difference cannot be ignored. In other words, even if the cooling fan is not malfunctioning and its rotational speed is temporarily reduced, a normal cooling fan is mistakenly detected as malfunctioning, and a sign is issued to alert maintenance intervention by means of logs or alarms. There was a problem of triggering.

  An object of the present invention is to provide a cooling fan failure diagnosis system, a failure diagnosis device, a failure diagnosis method, a failure diagnosis program, and a cooling device that reliably detect a failure of a cooling fan having a redundant configuration that may cause a co-rotation phenomenon. Is to provide.

  The first cooling fan failure diagnosis system according to the present invention includes a first cooling device having a first cooling fan, a second cooling device having a second cooling fan, and a rotational speed of the first cooling fan. And a control device that performs a first failure diagnosis for diagnosing a failure of the second cooling fan based on the rotational speed of the second cooling fan when the value of the second cooling fan is decreased.

  According to the second cooling fan failure diagnosis system of the present invention, when the rotational speed of at least one of the plurality of cooling fans and at least one of the plurality of cooling fans is reduced, or the at least one cooling fan is And a control device that performs failure diagnosis of the other cooling fan based on the rotation speed of the other cooling fan when the rotation is stopped.

  The failure diagnosis apparatus according to the present invention has a function of controlling the rotation of a plurality of cooling fans, and when the rotation speed of at least one of the plurality of cooling fans is reduced, or the at least one cooling fan Control means for diagnosing a failure of the other cooling fan based on the rotation speed of the other cooling fan when the rotation of the cooling fan is stopped is provided.

  A failure diagnosis method for a first cooling fan according to the present invention includes a first cooling fan, a second cooling fan, and a control device that controls the first and second cooling fans. In the failure diagnosis method in FIG. 1, a first speed adjustment step in which the control device decreases the rotational speed of the first cooling fan, and a second cooling when the control device decreases the rotational speed of the first cooling fan. And a first failure diagnosis step of performing failure diagnosis of the second cooling fan based on the rotation speed of the fan.

A second cooling fan failure diagnosis method according to the present invention is a failure diagnosis method in a failure diagnosis system for a cooling fan having a plurality of cooling fans and a control device that controls the plurality of cooling fans. A speed adjusting step of decreasing the rotational speed of at least one cooling fan, or stopping the rotation of the at least one cooling fan, and the control device sets the rotational speed of at least one of the plurality of cooling fans. A failure diagnosis step of performing a failure diagnosis of the other cooling fan based on the rotation speed of the other cooling fan when the rotation is reduced or when the rotation of the at least one cooling fan is stopped. Features.

  According to the first cooling fan failure diagnosis program of the present invention, the first speed adjusting step for reducing the rotational speed of the first cooling fan and the rotational speed of the first cooling fan are reduced. And a first failure diagnosis step of performing failure diagnosis of the second cooling fan based on the rotation speed of the second cooling fan.

A second cooling fan failure diagnosis program according to the present invention is a failure diagnosis method in a failure diagnosis system for a cooling fan having a plurality of cooling fans and a control device that controls the plurality of cooling fans. A speed adjusting step of decreasing the rotational speed of at least one cooling fan, or stopping the rotation of the at least one cooling fan, and the control device sets the rotational speed of at least one of the plurality of cooling fans. A failure diagnosis step of performing a failure diagnosis of the other cooling fan based on the rotation speed of the other cooling fan when the rotation is reduced or when the rotation of the at least one cooling fan is stopped. Features.

  The present invention has an effect that a failure can be reliably detected even with a redundant cooling fan that may cause a co-rotation phenomenon.

  A first embodiment of a failure diagnosis system for a cooling fan of the present invention will be described.

  FIG. 1 is a block diagram showing a failure diagnosis system 1 for a cooling fan.

  Referring to FIG. 1, a cooling fan failure diagnosis system 1 includes a control device 12 and cooling devices 13-1 and 13-2. The cooling devices 13-1 and 13-2 have a redundant configuration.

  The cooling fan failure diagnosis system 1 of FIG. 1 can be incorporated into an information processing apparatus, for example. FIG. 2 is a block diagram showing the information processing apparatus 2 in which the cooling fan failure diagnosis system 1 is incorporated. The information processing apparatus 2 includes cooling devices 13-1 and 13-2, a system board 21, and various auxiliary devices 22 (such as an input device and an auxiliary storage device). A control device 12 is attached to the system board 21. The cooling fan failure diagnosis system 1 may not be incorporated in the information processing apparatus 2 and is not limited to this example.

  Referring to FIG. 1, the control device 12 includes a control unit 121 and a storage unit 122. The control means 121 performs “failure diagnosis” and “periodic diagnosis” on the cooling devices 13-1 and 13-2. Since “failure diagnosis” and “periodic diagnosis” will be described later, detailed description thereof will be omitted here. The storage unit 122 stores failure diagnosis information and periodic diagnosis information. The failure diagnosis information includes information indicating the timing of failure diagnosis and history information of failure diagnosis. For example, if the information indicating the timing of failure diagnosis is 10 minutes, it means that the control device 12 performs failure diagnosis of the cooling device every 10 minutes. Further, the periodic diagnosis information includes history information of the periodic diagnosis.

  In the following description, it is assumed that the control unit 121 is a service processor and the storage unit 122 is a memory. However, the present invention is not limited to this.

  The cooling device 13-1 includes a cooling fan 131-1, a power supply unit 132-1, a fan control unit 133-1, a monitoring unit 134-1, and a storage unit 135-1.

  The cooling device 13-2 includes a cooling fan 131-2, a power supply unit 132-2, a fan control unit 133-2, a monitoring unit 134-2, and a storage unit 135-2.

  The power supply units 132-1 and 132-2 supply power to the cooling devices 13-1 and 13-2, respectively.

  Fan control units 133-1 and 133-2 control power supply units 132-1 and 132-2, respectively, based on a control signal from service processor 121.

  Monitoring units 134-1 and 134-2 determine whether cooling fans 131-1 and 131-2 are normal, respectively, and report the results to service processor 121.

  The storage units 135-1 and 135-2 store a failure diagnosis table 3 (see FIG. 3) for “failure diagnosis” and a periodic diagnosis table 4 (see FIG. 4) for “periodic diagnosis”, respectively. Yes.

  Referring to FIG. 3, the failure diagnosis table 3 includes a rotation change rate threshold field 31, a control rotation change rate field 32, and a rotation speed initial setting value field 33. In the example of FIG. 3, the value of the rotation change rate threshold field 31 is 10%. If the rotation change rate with respect to the initial setting value of the cooling fan to be diagnosed is 10% or more, a failure is diagnosed. Means that. Here, the value of the control rotation change rate field 32 is 50%, which means that the rotation speed of the cooling fan to be controlled is reduced to 50% of the initial set value for diagnosis. When the value of the control rotation rate field 32 is 80%, the rotation speed of the cooling fan to be controlled is reduced to 20% (100% -80% = 20%) of the initial setting value. Means. Further, when the value of the rotation change rate field 32 for diagnosis is 100%, the number of rotations of the cooling fan is set to 0 rpm (revolution per minute) (rotation / minute), that is, the cooling fan to be controlled is selected. Means to stop. In addition, the value of the field 33 of the initial setting value of the rotational speed is 5000 rpm, which means that the cooling fan is normally rotated at 5000 rpm (when not controlled).

  Next, an outline of a failure diagnosis method using the failure diagnosis table 3 will be described. Here, it is assumed that the failure diagnosis table 3 is used to control the rotational speed of one cooling fan 131-1 to perform failure diagnosis of the other cooling fan 131-2. First, since the value of the rotation change rate field 33 for diagnosis is 50%, the number of rotations of the cooling fan 131-1 to be controlled is reduced to 2500 rpm. At this time, if the number of rotations of the other cooling fan 131-2 falls within the range of 5000 ± 500 rpm, the cooling fan 131-2 is determined to be normal, and on the other hand, it is out of the range (less than 4500 rpm or more than 5500 rpm). If so, diagnose the failure.

  It should be noted that the contents and items of each field of the failure diagnosis table 3 are merely examples, and are not limited to these. It is possible to find a failure cooling fan that rotates due to the co-rotation phenomenon. It only needs to be a numerical relationship. For example, the configuration may be such that the rotation speed of the cooling fan that is the control target is associated with the threshold value of the rotation speed of the cooling fan that is the target of the failure diagnosis.

  FIG. 4 is a diagram illustrating an example of the periodic diagnosis table 4.

  The periodic diagnosis table 4 includes a detection timing field 41, a rotation speed change rate threshold field 42, a cumulative number field 43, and an initial rotation speed field 44. Here, the value of the detection timing field 41 is 60 seconds, which means that the monitoring units 134-1 and 134-2 perform error detection of the cooling fans 131-1 and 131-2 every 60 seconds. . The value of the rotation rate threshold field 42 is 20%, and if the deviation from the initial rotation speed (5000 rpm) is 20% or more for both the cooling fans 131-1 and 131-2, error detection is performed. Means that. The value of the cumulative number field 43 is five. This is because when the error detection cumulative count value exceeds five times, the monitoring units 134-1 and 134-2 send an error signal to the service processor 121, It means that the service processor generates an alarm. The value of the rotation speed initial setting field 44 is 5000 rpm, which means that the cooling fan is rotated at 5000 rpm when failure diagnosis is not performed.

  In the present embodiment, lowering the rotation speed of one cooling fan and detecting an error of another cooling fan is referred to as “failure diagnosis”, but periodically based on the periodic diagnosis output table 4. The error detection is referred to as “periodic diagnosis”.

  In the above example, the cooling apparatuses 13-1 and 13-2 have been described as having the failure diagnosis table 3 and the periodic diagnosis table 4 having the same contents, but the present invention is not limited to this.

  Next, the overall flow of failure diagnosis according to the present embodiment will be described with reference to the flowchart of FIG.

  First, a first failure diagnosis is performed as follows. That is, the service processor 121 accesses the memory 122 to acquire failure diagnosis history information, and selects one cooling fan to be controlled from among a plurality of cooling fans in the apparatus (S501 in FIG. 5). Here, first, it is assumed that the cooling fan 131-1 is selected as the control target. Thereafter, the service processor 121 sends a control signal for masking the error signal of the periodic diagnosis of the cooling fan 131-1 to the monitoring unit 134-1 of the cooling device 13-1 (S502). The monitoring unit 134-1 cancels monitoring of the error signal for the periodic diagnosis of the cooling fan 131-1 (S503). Then, the service processor 121 sends a control signal indicating that the rotational speed of the cooling fan 131-1 is reduced to the fan control unit 133-1 (S504). Then, the fan control unit 133-1 decreases the output current from the power supply for supply 132-1, and decreases the rotation speed of the cooling fan 131-1 to be controlled (S505). Here, since the rotation speed of the cooling fan 131-1 falls below the threshold value of the periodic diagnosis table 4, an error is detected in the periodic diagnosis under normal circumstances. However, in the present embodiment, since the mask process for the error signal of the periodic diagnosis of the cooling fan 131-1 is performed in advance, the error signal is not detected. Then, the service processor 121 instructs the monitoring unit 134-2 of the other cooling device (cooling device 13-2) to monitor the rotational speed (S506). Then, the monitoring unit 134-2 accesses the storage unit 135-2, reads the failure diagnosis table 3, and monitors the rotation speed of the cooling fan 131-2 based on the failure diagnosis table 3 (S507). The number of rotations of the cooling fan is detected by a sensor or the like (not shown) attached to each of the cooling devices 13-1 and 13-2. Next, the monitoring unit 134-2 of the cooling device 13-2 determines whether or not the rotational speed of the cooling fan 131-2 exceeds the threshold value of the failure diagnosis table 3 (S508). When the threshold value is exceeded (the number of rotations of the cooling fan 131-2 is less than 4500 rpm or more than 5500 rpm), the monitoring unit 134-2 sends an error signal to the service processor 121, and a failure is detected (S509). ). Then, the service processor 121 updates the fault diagnosis history information and notifies the user or the like of an alarm (S510). On the other hand, if the threshold value is not exceeded in step S405 (the rotational speed is within the range of 5000 ± 500 rpm), it is recognized as normal, and the monitoring unit 134-2 reports the fact to the service processor 121 (S511). Then, the service processor 121 updates the failure diagnosis history information and issues an instruction to restore the rotational speed of the cooling fan 131-1 in the cooling device 13-1 (S512). In response to this, the fan control unit 133-1 of the cooling device 13-1 controls the power supply unit 132-1, and returns the rotational speed of the cooling fan 131-1 to the initial set value (5000 rpm) (S513). Thereafter, the service processor 121 instructs the monitoring unit 134-1 to cancel the error signal mask processing in the periodic diagnosis of the cooling fan 131-1 (S514). The monitoring unit 134-1 cancels the mask process (S515). This completes the first failure diagnosis. Thereafter, the service processor 121 determines whether or not there is a cooling device that has not been controlled in the previous failure diagnosis (here, only the first failure diagnosis) (S516). If there is a cooling device that is not selected as a control target, the process returns to step S501. On the other hand, when there is no cooling device not selected as a control target, the failure diagnosis is terminated. In the present embodiment, since the failure diagnosis with the cooling device 13-2 as a control target has not been performed yet, the cooling device 13-2 is selected in step S516. Thereafter, a second failure diagnosis is performed on the cooling device 13-2 as a control target. In the first failure diagnosis and the second failure diagnosis, the control target and the diagnosis target are reversed, but the operation itself is the same. Therefore, the flowchart of the second failure diagnosis and the description thereof are omitted. When the second failure diagnosis is completed, there is no cooling device that is not selected as a control target in the previous failure diagnosis (first and second failure diagnosis), and thus the entire failure diagnosis is ended.

  Note that the order of steps S512 to S515 is an example, and the order is not limited to this, and may be the order of S514 → S515 → S512 → S513. Further, step S512 and step S514 may be performed simultaneously, and step S513 and step S515 may be performed simultaneously.

  Next, the overall flow of periodic diagnosis will be described using the flowchart of FIG. Periodic diagnosis is performed in each of the cooling devices 13-1 and 13-2. Here, the cooling device 13-1 will be described as an example, but the operation of the cooling device 13-2 is the same as that of the cooling device 13-1.

  When the timing of error detection is reached (every 60 seconds in this embodiment), the monitoring unit 134-1 accesses the storage unit 135-1 and reads the periodic diagnosis table 4 (S601, S602). Then, the monitoring unit 134-1 determines whether or not the deviation of the rotation speed of the cooling fan 131-1 from the initial set value (5000 rpm) is within a threshold range. That is, it is determined whether or not the rotational speed of the cooling fan 131-1 is within the range of 5000 ± 1000 rpm. As a result, when it is determined that the value is within the range of the threshold, it is recognized as normal and the process returns to step S601 (S604). On the other hand, when determining that the threshold value is exceeded, the monitoring unit 134-1 determines whether an instruction for masking the error signal is received from the service processor 121 (S605). If a mask processing instruction has been received, it is determined that the number of rotations of the cooling fan 131-1 has been intentionally decreased, and the process returns to S601. On the other hand, if the mask processing instruction has not been received, it is determined whether or not the cumulative value of the error count exceeds five times (the value of the cumulative number of times 43 in the periodic diagnosis table) (S606). If the number of times exceeds five, the monitoring unit 134-1 sends an error signal to the service processor 121 (S607). On the other hand, if it has not exceeded five times, the process returns to step S601.

  Although not shown in the flowchart of FIG. 6, when the service processor 121 receives an error signal from the monitoring unit 134-1, it notifies the user or the like of an error.

  In the present embodiment, the periodic diagnosis table 4 has information related to the timing of the periodic diagnosis. However, this information may be included in the periodic diagnosis information in the memory 122. In this case, when it is time for periodic diagnosis, the control device 12 instructs the cooling devices 13-1 and 13-2 to perform periodic diagnosis.

  In this embodiment, the cooling fan failure diagnosis system 1 has two cooling devices. However, the present invention is not limited to this. For example, as shown in FIG. 7, the cooling fan failure diagnosis system 7 may have N (N is an integer of 3 or more) cooling devices 13-1 to 13 -N.

  Further, when the cooling fan failure diagnosis system has N (N is an integer of 3 or more) cooling devices 13-1 to 13 -N, failure diagnosis may be performed using a plurality of cooling devices as control targets. .

  As described above, in the present embodiment, the periodic diagnosis shown in FIG. 6 is performed, and the rotation of the cooling fan 131-2 is intentionally reduced (or stopped). Fault diagnosis is performed based on the speed. In the present embodiment, the failure diagnosis is performed in a state where the generated airflow (wind power) of the cooling fan 131-1 that is considered to be the cause of the co-rotation phenomenon is made smaller, so even if the co-rotation phenomenon occurs. It becomes possible to reliably detect a failure of the cooling fan.

  Next, a second embodiment will be described as a modification of the first embodiment.

  In the first embodiment, a failure is diagnosed once the threshold value is exceeded in steps S508 to S509 in FIG. 5. However, in this embodiment, the failure is detected only when the threshold value is exceeded a plurality of times in succession. Is different from the first embodiment.

  FIG. 8 shows an example of the failure diagnosis table 8 of the present embodiment. The failure diagnosis table 8 includes a rotation change rate field 31, a control rotation change rate field 32, a rotation speed initial setting value field 33, a continuous frequency field 81, and a diagnosis timing field 82. Only the continuous number field 34 and the diagnosis timing field 35 are different from those of the first embodiment. In the present embodiment, the value of the field 34 for the number of consecutive times is two, and this is determined as a failure only when it is determined that the threshold value has been exceeded twice in step S508 of FIG. Means that. Further, the value of the diagnosis timing field 35 is 10 seconds, and if it is determined that the threshold value is exceeded once in step S508 of FIG. 5, it is determined whether or not the threshold value is exceeded again 10 seconds later. Means to do.

  Next, the overall flow of failure diagnosis according to the present embodiment will be described with reference to the flowchart of FIG. Steps S901 to S908 are the same as steps S501 to S508 in FIG. Further, steps S912 to S917 are the same as steps S511 to S516 of FIG. In the present embodiment, when the threshold value is exceeded in step S908 (the rotation speed of the cooling fan 131-2 is less than 4500 rpm or more than 5500 rpm), the threshold value is exceeded by exceeding the continuous number of times described in the field 81 of the continuous number. Is determined (step S909). When the number of continuous times is exceeded and the threshold value is exceeded, the monitoring unit 135-2 sends an error signal to the service processor 121, and a failure is detected (step S910). Then, the service processor 121 updates the failure diagnosis history information and notifies the user or the like of an alarm (step S911). On the other hand, if the threshold value is not exceeded after exceeding the number of continuous times, it is determined again whether the threshold value is exceeded at the timing described in the diagnosis timing field 82 (steps S908 and 909).

  In failure diagnosis, error detection may be performed only when the cumulative count value of error detection exceeds a predetermined number of times as in the case of periodic diagnosis.

  In the periodic diagnosis, as in the case of the failure diagnosis of the present embodiment, error detection may be performed only when the number of consecutive error detections exceeds a predetermined number.

  As described above, in the second embodiment, as in the first embodiment, it is possible to reliably detect the cooling fan failure even when the co-rotation phenomenon occurs. Play.

It is a block diagram which shows the failure diagnosis system 1 of the cooling fan in the 1st and 2nd embodiment of this invention. 1 is a block diagram showing a failure diagnosis system 1 for a cooling fan when incorporated in an information processing apparatus 2. FIG. It is a figure which shows an example of the failure diagnosis table. It is a figure which shows an example of the periodical diagnosis table. It is a flowchart which shows the whole flow of the failure diagnosis in the 1st Embodiment of this invention. It is a flowchart which shows the whole flow of the periodical diagnosis in the 1st and 2nd embodiment of this invention. It is a block diagram which shows the failure diagnosis system 7 of the cooling fan which has N cooling devices (N is three or more). 6 is a diagram illustrating an example of a failure diagnosis table 8. FIG. It is a flowchart which shows the whole flow of the failure diagnosis in the 2nd Embodiment of this invention. It is a block diagram which shows a push-pull type cooling fan. It is a block diagram which shows the cooling fan of a dual fan unit.

Explanation of symbols

1 Cooling fan failure diagnosis system
12 control device 121 control means (service processor)
122 Storage means (memory)
1221 Failure diagnosis information 1222 Periodic diagnosis information 13-1, 13-2 Cooling devices 131-1 and 131-2 Cooling fans 132-1 and 132-2 Power supply units 133-1 and 133-2 Fan control units 134-1 and 134 -2 Monitoring unit 135-1, 135-2 Storage unit 2 Information processing device 21 Electronic device 22 Various auxiliary devices 3 Failure diagnosis table 31 Rotational change rate threshold field 32 Control rotational change rate field 33 Initial value of rotational speed Field 4 Periodic diagnosis table 41 Detection timing field 42 Rotational change rate threshold field 43 Cumulative frequency field 44 Rotational speed initial setting field 7 Cooling fan failure diagnosis system 13-N Cooling device 131-N Cooling fan 132-N power supply unit 133-N fan control unit 134-N monitoring unit 135-N storage unit 81 continuous times Number field 82 Diagnostic timing field

Claims (34)

In the cooling fan failure diagnosis system,
A first cooling device having a first cooling fan;
A second cooling device having a second cooling fan;
A controller for performing a first failure diagnosis for diagnosing a failure of the second cooling fan based on a rotation speed of the second cooling fan when the rotation speed of the first cooling fan is decreased. A cooling fan failure diagnosis system characterized by that.   The said control apparatus performs said 1st failure diagnosis based on the rotational speed of the said 2nd cooling fan when the rotational speed of the said 1st cooling fan is stopped. Cooling fan failure diagnosis system.   After the first failure diagnosis, the control device determines the failure of the first cooling fan based on the rotation speed of the first cooling fan when the rotation speed of the second cooling fan is decreased. 3. The cooling fan failure diagnosis system according to claim 1, wherein a second failure diagnosis is performed.   The said control apparatus performs said 2nd failure diagnosis based on the rotational speed of the said 1st cooling fan when the rotational speed of the said 2nd cooling fan is stopped. Cooling fan fault diagnosis system.   2. The control device according to claim 1, wherein the control device issues monitoring instructions for the first failure diagnosis and the second failure diagnosis to the first and second cooling devices, respectively, at a predetermined timing. 5. A cooling fan failure diagnosis system according to 3 or 4. The first cooling device includes a first monitoring unit that monitors the rotational speed of the first cooling fan, and a first storage unit that stores first threshold information related to the rotational speed,
The second cooling device includes a second monitoring unit that monitors the rotational speed of the second cooling fan, and a second storage unit that stores second threshold information related to the rotational speed,
When the first and second monitoring units receive the monitoring instruction, the first and second monitoring units respectively determine whether or not the rotation speeds of the first and second cooling fans are normal based on the first and second threshold information. The failure diagnosis system for a cooling fan according to any one of claims 1 to 5, wherein an error signal is transmitted to the control device when it is not normal. The first storage unit further includes third threshold information regarding the number of rotations,
The second storage unit further includes fourth threshold value information regarding the number of rotations,
The first and second monitoring units determine whether the rotation speeds of the first and second cooling fans are normal based on the third and fourth threshold information at predetermined timings, respectively. The cooling fan failure diagnosis system according to claim 6, wherein if it is not normal, a periodic diagnosis is performed in which an error signal is transmitted to the control device.   When the cumulative value of the number of times determined as not normal exceeds a predetermined value, or when the continuous number of times determined as not normal exceeds a predetermined value, the first and second monitoring units may 8. The cooling fan failure diagnosis system according to claim 6, wherein an error signal is transmitted. Before the first failure diagnosis, the first monitoring unit performs a first mask process for masking an error signal generated in the periodic diagnosis, and after the first failure diagnosis, the first monitoring unit Canceling the first mask process;
Before the second failure diagnosis, the second monitoring unit performs a second mask process for masking an error signal generated in the periodic diagnosis, and after the second failure diagnosis, the second monitoring unit 9. The cooling fan failure diagnosis system according to claim 7, wherein the second mask process is canceled.   10. The cooling fan failure diagnosis system according to claim 6, wherein the control device generates an alarm when receiving the error signal. Multiple cooling fans,
When the rotation speed of at least one of the plurality of cooling fans is decreased, or when the rotation speed of another cooling fan is stopped when the rotation speed of the at least one cooling fan is stopped A cooling fan failure diagnosis system comprising: a control device that performs failure diagnosis of a cooling fan of the type.   A function of controlling the rotation of the plurality of cooling fans, and when the rotation speed of at least one of the plurality of cooling fans is reduced or the rotation of the at least one cooling fan is stopped; A cooling fan failure diagnosis apparatus, comprising: a control means for diagnosing a failure of the other cooling fan based on the rotational speed of the other cooling fan. In a failure diagnosis method in a failure diagnosis system for a cooling fan, comprising: a first cooling fan; a second cooling fan; and a control device that controls the first and second cooling fans.
A first speed adjustment step in which the control device decreases the rotational speed of the first cooling fan;
A first failure diagnosis step in which the control device performs failure diagnosis of the second cooling fan based on the rotation speed of the second cooling fan when the rotation speed of the first cooling fan is decreased; ,
A failure diagnosis method for a cooling fan, comprising:   In the first failure diagnosis step, the control device performs failure diagnosis based on a rotation speed of the second cooling fan when the rotation speed of the first cooling fan is stopped. The cooling fan failure diagnosis method according to claim 13. A second speed adjustment step in which the control device decreases the rotational speed of the second cooling fan after the first failure diagnosis step;
A second failure diagnosis step in which the control device performs failure diagnosis of the first cooling fan based on a rotation speed of the first cooling fan when the rotation speed of the second cooling fan is decreased; When,
The cooling fan failure diagnosis method according to claim 13 or 14, characterized by comprising:   In the second failure diagnosis step, the control device performs failure diagnosis based on the rotation speed of the first cooling fan when the rotation speed of the second cooling fan is stopped. The cooling fan failure diagnosis method according to claim 15.   The cooling fan failure diagnosis method according to claim 15 or 16, wherein the first and second failure diagnosis steps are performed at a predetermined timing.   In the first and second failure diagnosis steps, the first and second failure diagnosis steps are based on the first threshold information on the rotation speed of the first cooling fan and the second threshold information on the rotation speed of the second cooling fan. 18. The cooling fan failure diagnosis method according to claim 13, wherein whether or not the number of rotations of the cooling fan 2 is normal is determined, and if it is not normal, an error is detected.   Based on the third threshold information regarding the rotation speed of the first cooling fan and the fourth threshold information regarding the rotation speed of the second cooling fan, whether the rotation speed of the first and second cooling fans is normal or not. 19. The cooling fan failure diagnosis method according to claim 18, further comprising a periodic diagnosis step of determining whether or not each of them is detected and detecting an error if it is not normal.   In each of the first and second failure diagnosis steps and the periodic diagnosis step, the cumulative value of the number of times determined to be not normal exceeds a predetermined number of times, or the number of consecutive times determined to be not normal is a predetermined number. 20. The cooling fan failure diagnosis method according to claim 18 or 19, wherein an error is detected when the number of times is exceeded. A first mask step for masking the error signal generated in the periodic diagnosis step before the first failure diagnosis step;
A first release step of releasing the first mask process after the first failure diagnosis step;
A second mask step for masking the error signal generated in the periodic diagnosis step before the second failure diagnosis step;
A second release step of releasing the second mask process after the second failure diagnosis step;
21. The cooling fan failure diagnosis method according to claim 19 or 20, further comprising:   The cooling fan according to any one of claims 18 to 21, wherein an alarm is generated when the error is detected in the first and second failure diagnosis steps and the periodic diagnosis step. Fault diagnosis method. In a failure diagnosis method in a failure diagnosis system for a cooling fan having a plurality of cooling fans and a control device that controls the plurality of cooling fans,
A speed adjusting step of decreasing the rotational speed of at least one of the plurality of cooling fans, or stopping the rotation of the at least one cooling fan;
When the control device decreases the rotation speed of at least one of the plurality of cooling fans or stops the rotation of the at least one cooling fan, the rotation speed of the other cooling fan is set. A failure diagnosis step of performing a failure diagnosis of the other cooling fan based on,
A failure diagnosis method for a cooling fan, comprising: On the computer,
A first speed adjustment step for reducing the rotational speed of the first cooling fan;
A first failure diagnosis step of performing a failure diagnosis of the second cooling fan based on the rotation speed of the second cooling fan when the rotation speed of the first cooling fan is decreased;
A failure diagnosis program for a cooling fan, characterized in that   25. The failure diagnosis is performed based on a rotation speed of the second cooling fan when the rotation speed of the first cooling fan is stopped in the first failure diagnosis step. Cooling fan failure diagnosis program. In the computer,
A second speed adjusting step for reducing the rotational speed of the second cooling fan after the completion of the first failure diagnosis step;
A second failure diagnosis step of performing a failure diagnosis of the first cooling fan based on the rotation speed of the first cooling fan when the rotation speed of the second cooling fan is decreased;
The failure diagnosis program for a cooling fan according to claim 24 or 25, wherein:   27. The failure diagnosis is performed based on a rotation speed of the first cooling fan when the rotation speed of the second cooling fan is stopped in the second failure diagnosis step. Cooling fan failure diagnosis program.   28. The cooling fan failure diagnosis program according to claim 26 or 27, wherein the first and second failure diagnosis steps are performed at a predetermined timing.   In the first and second failure diagnosis steps, the first and second failure diagnosis steps are based on the first threshold information on the rotation speed of the first cooling fan and the second threshold information on the rotation speed of the second cooling fan. 29. The cooling fan failure diagnosis program according to claim 24, wherein it is determined whether or not the number of rotations of the cooling fan 2 is normal, and an error is detected if the rotation number is not normal. In the computer,
Based on the third threshold information regarding the rotation speed of the first cooling fan and the fourth threshold information regarding the rotation speed of the second cooling fan, whether the rotation speed of the first and second cooling fans is normal or not. 30. The cooling fan failure diagnosis program according to claim 29, further comprising executing a periodic diagnosis step of determining whether or not each of them is not normal and detecting an error.   In each of the first and second failure diagnosis steps and the periodic diagnosis step, the cumulative value of the number of times determined to be not normal exceeds a predetermined number of times, or the number of consecutive times determined to be not normal is a predetermined number. 31. The cooling fan failure diagnosis program according to claim 29, wherein an error is detected when the number of times is exceeded. In the computer,
A first mask step for masking the error signal generated in the periodic diagnosis step before the first failure diagnosis step;
A first release step of releasing the first mask process after the first failure diagnosis step;
A second mask step for masking the error signal generated in the periodic diagnosis step before the second failure diagnosis step;
A second release step of releasing the second mask process after the second failure diagnosis step;
32. The cooling fan failure diagnosis program according to claim 30 or 31, further comprising:   The cooling fan according to any one of claims 29 to 32, wherein an alarm is generated when the error is detected in the first and second failure diagnosis steps and the error detection step. Fault diagnosis program. On the computer,
A speed adjusting step of decreasing the rotational speed of at least one of the plurality of cooling fans, or stopping the rotation of the at least one cooling fan;
When the rotation speed of at least one of the plurality of cooling fans is decreased, or when the rotation of the at least one cooling fan is stopped , the other cooling fan is rotated based on the rotation speed of the other cooling fan. And a failure diagnosis step for performing a failure diagnosis of the cooling fan.

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